Abstract: A chip scale package has a semiconductor die having an array of die bond pads arranged with a bond pad density per unit area, embedded in a molded die support body having a surface supporting an array of conducting contacts, each of the contacts connected by an electrical lead to a corresponding one of the die bond pads.

Abstract: A method for selective deposition of Si or SiGe on a Si or SiGe surface exploits differences in physico-chemical surface behavior according to a difference in doping of first and second surface regions. By providing at least one first surface region with a Boron doping of a suitable concentration range and exposing the substrate surface to a cleaning and passivating ambient atmosphere in a prebake at a temperature lower or equal to 800° C., a subsequent deposition step will prevent deposition in the first surface region. This allows selective deposition in the second surface region, which is not doped with the Boron (or doped with another dopant or not doped). Several devices are, thus, provided. The method saves a usual photolithography sequence, which according to prior art is required for selective deposition of Si or SiGe in the second surface region.

Abstract: Various exemplary embodiments relate to gate driver circuitry that compensate for parasitic inductances. Input buffers in the gate driver are grounded to an exposed die pad. Grounding may involve either a downbond or conductive glue.

Abstract: An electronic circuit (100) is disclosed for processing signals (20L, 20R) originating from respective signal recorders (20) integrated in respective earpieces of a headset. The electronic circuit comprises a first input for receiving a signal (20L) from the signal recorder of the ear piece intended for a left ear of a wearer of the headset, said signal relating to a blood pressure pulse (200) of said wearer; a second input for receiving a further signal (20R) relating to said blood pressure pulse from the signal recorder of the ear piece intended for a right ear of the wearer; a detection unit (110, 120) for detecting the order in the signal and the further signal are recorded by said respective signal recorders and for comparing the detected order with a correct order; and a signal adaptation unit (130) for adapting an output signal (30L, 30R) in response to the detection unit signaling a detection of an incorrect order of the signal and the further signal.

Abstract: It is an object of the invention to ensure the reliable and flawless operation of a storage means that is connected to a data reproduction system. This object will be met by a method for controlling the admission of a storage means to a peripheral bus of a data reproduction system, wherein a storage means is connected to the peripheral bus of a data reproduction system, the read latency of the storage means is determined, and it is decided based on the determined read latency whether the storage means is admitted to the peripheral bus or rejected. The latency for read requests from the storage means, for instance a USB mass storage device, will be analyzed on first insertion and the results of this analysis will be used to carry out a compatibility check of the storage means with the data reproduction system, for example a car audio system.

Abstract: An audio amplifier (3) for a mobile telephone (1) is disclosed. The audio amplifier (3) comprises first and second output stages (11, 12), each for coupling to a respective one of first and second loudspeakers (4, 5), and switching circuitry (10) adapted to respond to a switching signal by switching an output signal from a common input stage (7, 8, 9) to the first output stage (11) when the switching signal is in a first state and to the second output stage (12) when the switching signal is in a second state.

Abstract: A portable RFID device includes an analog modulation radio frequency transmitter and a data storage holding audio data files. In response to user entered commands the device retrieves the audio data files, applies digital to analog conversion to generate analog audio signals, and transmits the analog audio signals through the analog modulation RF amplifier. Optionally, the analog modulation RF amplifier is a frequency modulation (FM) modulator and transmitter, optionally using a UHF broadcast FM band. The transmitted analog modulated RF signal is received and played by a receiver and playback device proximal to the transmitter. Optionally, a locking operation is applied after storing the multimedia files, preventing subsequent altering of the files.

Abstract: A semiconductor device (10) comprising a bipolar transistor and a field 5 effect transistor within a semiconductor body (1) comprising a projecting mesa (5) within which are at least a portion of a collector region (22c and 22d) and a base region (33c) of the bipolar transistor. The bipolar transistor is provided with an insulating cavity (92b) provided in the collector region (22c and 22d). The insulating cavity (92b) may be provided by providing a layer (33a) in the collector region (22c), creating an access path, for example by selectively etching polysilicon towards monocrystalline, and removing a portion of the layer (33a) to provide the cavity using the access path. The layer (33a) provided in the collector region may be of SiGe:C. By blocking diffusion from the base region the insulating cavity (92b) provides a reduction in the base collector capacitance and can be described as defining the base contact.

Abstract: Provisioning an integrated circuit with confidential data, by receiving in the integrated circuit encrypted confidential data, the encrypted confidential data having been encrypted with a transport key, deriving in the integrated circuit the transport key by applying a key derivation function to a customer identifier, the customer identifier having been previously stored in the integrated circuit, decrypting in the integrated circuit the encrypted confidential data with the transport key to obtain decrypted confidential data, deriving in the integrated circuit a product key by applying a key derivation function to an integrated circuit identifier, the integrated circuit identifier having been previously stored in the integrated circuit, encrypting in the integrated circuit the decrypted confidential data with the product key to obtain re-encrypted confidential data, and storing the re-encrypted confidential data in a confidential data memory of the integrated circuit.

Abstract: A contactless smartcard type integrated circuit needing only two pins for performing a standard ATPG test is disclosed. A scan test may be performed using one pin for the clock and the other pin for the input and input of the scan test data. Additionally, security is enhanced by using an embedded signature generator to avoid observation of the data shifted out.

Abstract: A switching circuit suitable for a low power oscillator circuit includes control and output circuits, the control circuit arranged to control the output circuit, the control circuit having input and output terminals, the output circuit having input and output terminals and control terminals; wherein the input terminal of the control circuit is connected to the input terminal of the output circuit, and the control terminal of the output circuit is connected to the output terminal of the control circuit, the output circuit first switches connected in series and arranged such that in use at least one of the switches is in a low impedance state at any given time, and the control circuit has second switches connected in series and arranged such that in use at least one of the switches is in a low impedance state at any given time.

Abstract: Operating a wireless communications system that supports multi-user multiple-input multiple-output (MU-MIMO) communications between a base station and multiple mobile stations involves generating a channel estimation, predicting a future channel estimation from the channel estimation, precoding data in response to the predicted future channel estimation, and transmitting the precoded data.

Abstract: A method of estimating the output light flux of a light emitting diode, comprises applying a drive current waveform to the LED over a period of time comprising a testing period. The forward voltage across the LED is monitored during the testing period, and the output light flux is estimated as a function of changes in the forward voltage.

Abstract: The invention relates to a filter device (341, 342) for detecting and/or removing erroneous components like noise, deformations, glitch components or other errors in and/or from a signal, to a demodulation device using the filter device, to an information transmission system using the demodulation device and to a method for detecting a noise impulse in an input signal (C?(t), C?[k]). The filter device includes a summing element (510-51N, 610) connected to a correction element (540, 640). The summing element (510-51N, 610) sums the input signal (C?(t), C?[k]) within a reference interval (N) and the correction element (540, 640) verifies the summed input signal (IS[k]) with at least one signal condition (0, N+1, ?C?[k]). Finally, the correction element (540, 640) outputs a predetermined signal (C??[k]) based on the result of the verification between the summed input signal (IS[k]) with at least one signal condition (0, N+1, ?C?[k]). The foregoing filter device is able to remove noise from an input signal.

Abstract: A system implements a location based service, and comprises a satellite navigation receiver implementing a position tracking function for providing the location of a user of the service. An analogue RF receiver receives satellite signals and performs at least a frequency downconversion. Correlation and decoding functions are applied to the downconverted signals for deriving location information from detected specific satellite signals. The system further comprises a server for receiving samples of the downconverted signals, and for verifying the samples are consistent with the expected satellite signals at that time and location. The invention provides a counter measure for detecting the counterfeiting of, or tampering with, the satellite signals at the receiver. A check can be made that the received satellite signals correspond to those which are expected at that location and time.

Abstract: The invention relates to a variable gain amplifier comprising a first attenuator (1) for receiving an input signal (rf_in) and for transmitting a first attenuated input signal to a first amplifier (2) for amplifying the first attenuated input signal and for generating a first amplified signal to a second attenuator (3) for attenuating the first amplified signal and for transmitting a second attenuated signal to a second amplifier (4) for amplifying the second attenuated signal and for generating an output signal (rf_out). The first attenuator (1) is supplied from a first supply voltage source (10). The second attenuator (3) is supplied from a second supply voltage source (30). The first amplifier (2) is supplied from a third supply voltage source (20), and the second amplifier (4) is supplied from a fourth supply voltage source (40).

Abstract: The invention provides an electric vehicle charging system in which the charging station and the vehicle each have a power transfer measurement unit, and a communication system for communicating data at least from the vehicle to the station. The power delivery is controlled based on a comparison of power transfer measurements made by the charging station and by the electric vehicle control system.

Abstract: A semiconductor device and a method of making the same. The device includes a semiconductor substrate having an AlGaN layer on a GaN layer. The device also includes first contact and a second contact. The average thickness of the AlGaN layer varies between the first contact and the second contact, for modulating the density of an electron gas in the GaN layer between the first contact and the second contact.

Abstract: A variable gain amplifier circuit (300) comprising a first transistor (310) and a second transistor (312); and an additional transistor (320). The first transistor (310) and second transistor (312) are arranged as common base transistors. The additional transistor (320) is configured to provide part of a translinear loop with the first (310) and second transistors (310). A current through the conduction channel of the first transistor (310) is configured to contribute to an output of the variable gain amplifier circuit current. The circuit (300) is configured such that a current through the conduction channel of the second transistor (312) is copied to the additional transistor (322).

Abstract: A optical detection system for used as a bio sensor is disclosed, comprising a card or cartridge and a reader. The cartridge comprises at least a detection chamber and an optical detector, and the reader includes means to urge a fluid into the detection chamber to initiate the analysis. The optical coupling may be enhanced by including optical elements in the card; conversely the system may be simplified by reducing or eliminating the number of moving parts in the card. In embodiments, additional elements such as a light source which may be an LED, flow restrictors or mixers, and electronic elements such as NFC functionality, may be included on the card. The card may be compatible with smart-cards.